Effects of Electrode Tip Shape and Torch Angle on High Speed DCEN TIG Welding.

Abstract Self-developed high speed tandem TIG welding equipment were adopted to manufacture titanium welded tubes with high efficiency and high quality. The joint made by this high efficient welding process met Chinese standard requirements. A coupled electrode, arc and weld pool numerical model was also developed to investigate temperature and velocity distributions, and energy propagation of this welding process. The numerical results showed that the Marangoni stress was much higher than the arc shear stress, and was mainly positive after leading and trailing arcs in the x and y directions, so the molten metal flowed backward on the top weld pool surface. Previous studies proposed that a “pull-push” flow pattern defined as a backward molten metal flow after the leading arc and a forward molten metal flow before the trailing arc existed on the top weld pool surface in tandem arc welding processes, while it was not observed in this case. The calculated arc efficiency of the high speed tandem TIG welding was about 79.8%.

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High Speed DCEN TIG Welding of Very Thin Aluminium Sheet with Magnetic Control for Arc.

QUARTERLY JOURNAL OF THE JAPAN WELDING SOCIETY ◽

10.2207/qjjws.20.484 ◽

2002 ◽

Vol 20 (4) ◽

pp. 484-492 ◽

Cited By ~ 3

Author(s):

Shizuo UKITA ◽

Tomoki MASUKO ◽

Toshiyuki IRIE ◽

Kunio KOKUBO

Keyword(s):

High Speed ◽

Tig Welding ◽

Magnetic Control ◽

Aluminium Sheet

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Effect of depositing torch angle on the first layer of wire arc additive manufacture using cold metal transfer (CMT)

Industrial Robot the international journal of robotics research and application ◽

10.1108/ir-11-2018-0233 ◽

2019 ◽

Vol 46 (2) ◽

pp. 259-266 ◽

Cited By ~ 2

Author(s):

Chuanchu Su ◽

Xizhang Chen

Keyword(s):

Weld Pool ◽

High Speed ◽

Additive Manufacture ◽

High Speed Camera ◽

Porosity Formation ◽

Cold Metal Transfer ◽

Content Type ◽

Deposition Direction ◽

Cold Metal ◽

Torch Angle

Purpose This paper aims to mainly report the impact of torch angle on the dynamic behavior of the weld pool which is recorded and monitored in real time with the aid of a high-speed camera system. The influence of depositing torch angle on the fluctuation behavior of weld pool and the quality of weld formation are compared and analyzed. Design/methodology/approach The FANUC controlled robotic manufacturing system comprised a Fronius cold metal transfer (CMT) Advanced 4000R power source, FANUC robot, water cooling system, wire feeding system and a gas shielding system. An infrared laser was used to illuminate the weld pool for high-speed imaging at 1,000 frames per second with CR600X2 high-speed camera. The high-speed camera was set up a 35 Â° angle with the deposition direction to investigate the weld pool flow patterns derived from high-speed video and the effect of torch angles on the first layer of wire additive manufacture-CMT. Findings The experimental results demonstrated that different torch angles significantly influence on the deposited morphology, porosity formation rate and weld pool flow. Originality/value With regard to the first layer of wire arc additive manufacture of aluminum alloys, the change of torch angle is critical. It is clear that different torch angles significantly influence on the weld morphology, porosity formation and weld pool flow. Furthermore, under different torch angles, the deposited beads will produce different defects. To get well deposited beads, 0-10° torch could be made away from the vertical position of the deposition direction, in which the formation of deposited beads were well and less porosity and other defects.

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Study on Time Characteristics of Coupling Discharge in Pulsed Laser Induced Double-TIG Welding

10.21203/rs.3.rs-796847/v1 ◽

2021 ◽

Author(s):

Xinkun Xu ◽

Huanyu Yang ◽

Liming Liu

Keyword(s):

High Speed ◽

Pulsed Laser ◽

Pulse Action ◽

Tig Welding ◽

Duty Ratio ◽

Regulation Mechanism ◽

Arc Plasma ◽

Existence Time ◽

Arc Pressure ◽

Marangoni Force

Abstract Based on the dynamic behavior of laser keyhole, the time characteristics of coupling discharge of heat source in pulsed laser induced double-TIG welding (LIDTW) are studied. The behaviors of arc plasma and laser keyhole were directly observed by high-speed camera and auxiliary illumination source. The physical characteristics of arc plasma were analyzed by spectrometer and arc quality analyzer. A physical model is established to reveal the regulation mechanism of time characteristics of coupling discharge. It is found that after laser pulse action the coupling discharge between keyhole plasma and double-arc plasma does not end immediately, and its time depends on the existence time of keyhole. During hybrid welding, when the combined force of arc pressure and Marangoni force can overcome the gravity, the liquid metal is forced out of the keyhole and the keyhole remains open. Improving the electron density of arc plasma and arc voltage and reducing the diameter of arc conductive channel by selecting appropriate parameters to is the key to prolong the existence time of keyhole, which is beneficial to improve the welding penetration. The coupling enhancement of double-arc electromagnetic field in LIDTW can effectively suppress keyhole backfill and increase the duty ratio of coupling discharge. When the total current intensity is 200 A, compared with laser induced single-TIG welding (LISTW), the existence time of keyhole in LIDTW increases by 77 %, the duty ratio of coupling discharge increases by 12 %, and the weld penetration increases by 29.2 %.

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